Gasket seal between sewer pipe and manhole opening

ABSTRACT

Providing a leakproof seal between the surface of an opening through the wall of a manhole and the outer surface of a pipe which passes through that opening. An extruded gasket strip, of elastomeric material and of &#39;&#39;&#39;&#39;A&#39;&#39;&#39;&#39; section, is rooted, by the splayed legs of the &#39;&#39;&#39;&#39;A,&#39;&#39;&#39;&#39; in the concrete of the manhole wall around said opening. The upper portion of the &#39;&#39;&#39;&#39;A&#39;&#39;&#39;&#39; yieldingly spans the distance between the surface of the opening and the surface of the pipe. A shaping element is provided to define the shape and character of the surface of the opening and to securely hold the gasket strip while the concrete is being poured to form the manhole wall, and until it has set.

Ditcher 1111 3,813,107 1 May 28, 1974 GASKET SEAL BETWEEN SEWER PIPE AND MANHOLE OPENING Inventor:

Assignee:

Filed:

Appl.

John Ditcher, Langhorne, Pa.

A-LOK Corporation, Trenton, NJ.

Sept. 26 1972 Related US. Application Data Division of Ser. No. 127,520, March 24; 1971.

US. Cl 277/189, 137/363, 285/231 Int. Cl Fl6j 15/10, F161 5/00 Field of Search.. 285/230, 192, 158; 404/64,

References Cited UNITED STATES PATENTS Lind et a1.

Peterson Swanson Yo'akum 285/230 FOREIGN PATENTS OR APPLlCATlONS 290,612 6/1965 Netherlands 285/231 Primary Examiner-Samuel B. Rothberg Assistant ExaminerRobert 1. Smith Attorney, Agent, or FirmSynnestvedt & Lechner [57] ABSTRACT Providing a leakproof seal between the surface of an opening through the wall of a manhole and the outer surface of a pipe which passes through that opening. An extruded gasket strip,-of elastomeric material and of A section, is rooted, by the splayed legs of the A, in the concrete of the manhole wall around said opening. The upper portion of the A" yieldingly spans the distance between the surface of the opening and the surface of the pipe. A shaping element is provided to define the shape and character of the surface of the opening and to securely hold the gasket strip while the concrete is being poured to form the manhole wall, and until it has set.

6 Clairns, 5 Drawing Figures PATENTEUMAY 28 1914 StlEHlW-Z PATENTEDMAY28 m4 3.813107 SHEET 2 (IF 2 1 I GASKET SEAL BETWEEN SEWER PIPE AND MANHOLE OPENING stalled with precisely smooth surfaces. Gaskets and other seals are not always effective in situations of this type. Too often water seeps past them, where irregularities, holes or bumps are present in the concrete.

One of the more successful proposals for meeting this need has been the installation of O-rings between suitably shaped collars which surround the pipe and mate with the inner surface of the opening through which the pipe passes. This has not been entirely successful, however, for minor imperfections in the concrete will permit the seepage of moisture past the O-ring gasket. Fur thermore, such a gasket must be tight along at least two lines of contact, and this doubles the problem of avoiding irregularities and roughness'at any point which comes in contact with the O-ring. Since the O-ring is solid, it is not easily forced into different shapes in order to conform to local irregularities in the surface or to imperfections in concentricity. Since the O-ring can roll upon itseIf,'it needs extraneous fittings to make it stay in place. i

Becauseof the'conditions under which sewer pipe is installed, it frequently happens that a section of pipe will lie at an angle to the overall axis of the line, due to subsidence in a muddy trench, lack of care in back filling, or any of numerous other'causes. When such a condition arisesand affects a section of pipe which is to pass through the wall of a manhole, it is quite important that the opening through which the pipe passes should be so configured as tov allow for variations in alinement. That is to say, it should taper inwardly from the outside of the manhole to a selected locus, from which locus it should flare out in the opposite direction, that is, towards the interior of the manhole. The desirability of providing double taper of this sort complicates the problem of installing a tight seal precisely at the locus where the tapered surfaces coincide.

It is an object of the present invention to provide a method for installing a sealing member which yieldingly spans the space between a sewer pipe which passesthrough the wall of a manhole and the inner surface of the opening through which the pipe passes.

It is an object of the invention to provide shaping elements which will impartthedesired configuration to the openingthrough which the pipe passes, which can be readily installed at the time themanhole is being cast, and readily removed after the concrete sets.

elements of the sort just mentioned in such a way as to enable them to receive and securely hold in place an elastomeric gasket which surrounds the entire periphery of the opening and which will hold that gasket element in its intended position withvportions thereof ex- It is an object of this invention to configure shaping I tending'outwardlyfrom the shaping element to be embedded in the concrete as the manhole is poured.

It is an objective of the invention to provide a gasket structure which can readily be formed by the extrusion of an elastomeric material, and which, as formed, is readily deformable so that it may locally yield to accommodate itself to irregularities in surface or in concentricity as it yieldingly spans the distance between a sewer pipe and the surface of the opening through which the, pipe passes.

These and other objectives and advantages of the present invention which may occur to those skilled in the art will become apparent from a perusal of the description which follows, taken together with the accompanying drawings.

In the drawings: FIG. 1 illustrates a section of ordi- FIG. 4 is an enlarged cross sectional view of the gasket ring; and

FIG. 5 is a sectional view illustrating a two-part shaping element employed to embed the gasket ring in the manhole wall, as that wall is erected.

According to this invention, a gasket ring having the general configuration of a capital A in cross section, but with slightly splayed out legs (see FIG. 4), is embedded in the concrete as it is poured to form the cylindrical wall of the manhole and the shaped surface of the opening through which the pipe is to pass. This is illustrated generally in FIG. I, where the sewer pipe P is shown as it is being installed and in a position where it is about to start compressing the gasket. In FIG. 2 the pipe P is shown fully installed and the gasket is shown in its compressed position, sealing the gap between the sewer pipe and the wall of the opening through which the pipe passes. The inner diameter of the gasket is somewhat smaller than the outer diameter of the sewer pipe P which is to pass through the opening. For instance, where a standard 8 inch I.D. pipe is used it will have an outside diameter of from 9.4 to 9.8 inches. The gasket ring for such a pipe should be about 8.25 inches in inside diameter.

In order to install the gasket at the desired spot, a two-part shaping element is provided which can be positioned between the inner and outer forms used to produce the manhole wall, and which can be readily unbolted and removed after the concrete has set.

Considering the gasket ring first, attention is directed to. FIGS. 3 and 4, in which the proportions, in cross section, are appropriate for a ring 10 which may be used to surround a pipe P which is 8 inches in inside diameter. The gasket may be made of any resilient elastomeric material which can be extruded to the desired shape. It is preferably made of rubber, in accordance with ASTM Specification C 443 63 T.

The peak 11 of the A, for a gasket of this size, may, desirably, be a little more than two inches above the base. The legs 12,12 of the upper part of the A diverge at an angle of about 40, or 20 on each side of the center line of the A, until they reach a point roughly level with the top of the cross bar 13 of the A. At the point, the angle of divergence substantially increases, becoming about 90, or 45 on each side of the center line. The side walls of the upper portion of the A do not sharply intersect: Rather, the tip of the A is rounded off, at 11, on a radius of about l/4 inch. The upper walls 12,12 are approximately l/4 inch in thickness, so that there is a triangular cavity 14 in the center of the gasket.

The lower legs 15,15 of the A are tapered, narrowing to a point at the extreme tip of each leg. The undersurfaces 16,16 of these legs rise from the tip of each leg towards the center at an angle of about 15. The extreme distance across the base of the A, for a gasket of this size, is about 2 2 inches. The upper line of the cross bar 13 of the A is about /8 inch above the base line.

Along the upper (or inner) surfaceofthe splayed out legs and also along the undersurfaces thereof, serrations 17 are provided. These ribs or grooves extend circumferentially of the gasket, as is clearly seen in FIG. 3. They increase the firmness with which the gasket is bonded into the concrete, and also assist in preventing any possible leakage of fluid around the buried surfaces of the gasket itself.

A section of ordinary sewer pipe P is shown in FIGS. 1 and 2. It may be of any suitable material, such as asbestos cement or vitreous clay, and may be of any size. For ordinary purposes, however, it may lose effectiveness at sizes much below 4 inches.

As previously indicated, the gasket ring is held in position while the concrete is being poured by means ofa two-part shaping element. This is illustrated in FIG. 5, where it is shown as though in horizontal section through the center of the ring. The outer element is generally indicated by the reference number 18; the inner element by the number 19.

The inner wall 20 of the manhole conventionally defines a cylindrical unit about 48 inches in inside diameter. The wall of the manhole is normally about 5 inches thick, thereby producing an overall outside diameter of 58 inches. The exterior surface of the wall is designated 21. The concrete of the manhole wall is indicated at 22 and the gasket ring 10 is shown with its splayed-out legs embedded therein.

The outer shell of the shaping member has a frustoconical shape, with its largest diameter coinciding with the outer line 21 ofthe manhole. At a point about 2 2% inches in from the outer edge, the wall of the form terminates in a flange 24 which extends radially inward, at an angle chosen to match the slope of the adjacent leg 12 of the gasket ring 10.

The sloping surface 25 of the flange 24 terminates in a fillet, adapted to receive the rounded apex 11 of the A-section.

The inner shaping element is likewise frustoconical in shape, with its largest diameter on the inner wall 20 of the manhole. lts frustoconical wall 26 terminates in a flange 27 which extends radially inward to a central opening 28, and this flange slopes at an angle which is equal andopposite to the slope of the corresponding surface 25 of the flange 24 of the outer element, so that the leg portions 12,12 of the gasket will be snugly received between the sloping surfaces of these two flanges.

At the fillet provided to receive the apex 11 of the A, an annular shoulder 29 is formed on the flange 24. This 4 has a surface 30 which is configured to mate with the sloping surface 31 on the upper face of the flange 27. The shoulder 29 operates as a limit means, to prevent the inner and outer forms from being so tightly drawn up as to deform the gasket between them.

The flange 24 terminates in a central opening 24', and this opening is covered by a heavy circular disc 32 of substantial thickness and strength, which is welded to the outer face of the form marginally outward of the opening 24'. Similarly, the central opening 28 in the flange 27 of the inner form is closed by a heavy plate or disc 33, which is welded to the flange 27 marginally outwardly of the opening 28.

The plates 32 and 33 are each provided with a central bore, 34,34, through which the threaded bolt 35 projects, after passing through the threaded nut 36 which is welded to the inner surface of the plate 33 in a position to surround the bore 34. The bolt 35 is engaged at its opposite end by the nut 37, to which 1 prefer to weld a pair of wings 38,38 to facilitate tightening the nut and securing the parts quite firmly together.

It should be noted that the gasket ring is an extruded article. It is cut to a length which is exactly equal to the desired inner diameter. lts ends are firmly bonded together to make it a continuous circle. This means that the inner rim of the gasket will be under compression normally, while the outer rim is under considerable tension, as it expands to accommodate the larger diameter. In order to prevent wrinkling and creasing of the rubber, it is quite desirable that the mating faces of the inner and outer forms should fit the gasket ring quite accurately.

Attention should be given to the angle at which the legs of the A splay out from the zone immediately below the line of the cross bar 13 of the A. This angle has been determined after considerable experiment as probably being the angle which affords the firmest bond with the concrete, so that the gasket will not be torn out by the roots" so to speak when the pipe is inserted, and so that the gasket legs which form peripheral webs will snap into diverging planes when positioned in the form and will best hold their shapes under the stress imposed, while the concrete sets.

The form used in positioning the gasket in accordance with this invention is mounted between the inner and outer shells which constitute the form for constructing the manhole wall. The outer shell is erected first and the network of reinforcing rods is set up within it. The rods are preferably bent to accommodate and position the shaping elements, which are assembled,

with the gasket in place, before being inserted between the reinforcing rods. The inner shell is then installed and the space between the shells is filled with concrete.

After the concrete has set, the wedges which hold the outer shell together are removed, and the shell is disassembled, whereupon the outer shaping element 18 can be unbolted from the inner one, 19, and removed. Thereafter, the inner shell of the manhole form is similarly removed, and the inner portion of the form 19 is readily lifted out of the opening. That portion of the gasket which represents the apex of the A is left, projecting into the opening.

It will be seen that the present invention affords a simple and extremely effective method for tightly sealing manhole openings to pipe which passes through such openings. Yet there is ample freedom for moveis easy to install and easy to ment under vibration or other stress, without impairing the tightness of the seal and without subjecting either the pipe ,or the manhole structure to contact with metallic collars or flanges which might, under vibrational stress, deliver hammerlike chocks which could in time result in fracture of the pipe. The mechanism required produce, and is not costly to manufacture.

The invention has been described primarily with reference to sewer installation, for'that is the area in which it is presently believed that it will demonstrate its greatest value. Obviously, however, it can be adapted to the installation of tubing or conduit of diverse shapes and for diverse purposes, without significantly departing from the spirit of the present disclosure.

I claim: v

1. A gasket for sealing the space between a pipe and the surrounding surface of an opening through which said pipe passes, said gasket being composed of elastomeric material having, throughout its entire extent, a cross section similar to the shape of a capital A, wherein the legs below the crossbar of the A diverge at a greater angle than the legs between the crossbar and the apex of the A, there being an inner cavity of triangular section below the apex of the A, the legs below the crossbar being configured to be embedded in settable material and to be rigidly secured by the setting thereof and the portion between the apex and the crossbar being configured to yieldingly span the space between said pipe and the wall of said opening, throughout the periphery thereof.

2. A gasket as recited in claim 1, composed of rubber.

3. A gasket according to claim 1, in which that por- I tion of the legs of the A which extends into the settable material is serrated throughout at least a portion of its extent.

4. A gasket for sealing the space between a pipe and a wall having an opening through which said pipe passes, said gasket being composed of elastomeric material having a cross section similar to the shape of a capital A, wherein the legs diverge from the apex of the A to the locus of the crossbar, where they are integrally united with a transverse web at that locus, to form an annular cavity of triangular section, said legs extending outwardly beyond the locus of the crossbar to be em bedded in settable material which constitutes the wall having an opening, the portion of said gasket between the apex and the crossbar being configured to yieldingly span the space between said pipe and the wall of said opening, throughout the periphery thereof.

5. The gasket of claim 4, formed as an extrusion. 6. The gasket of claim 4, wherein that portion of the legs of the A which extends beyond the locus of the crossbar is ridged at intervals, so as to be firmly retained by such settable material after it has set.

UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 3,813,107 Dated May 28, 197

Inventor-(s) John Ditcher It is certified that error appears in the above-identified patent and that said Letters Patent are hereby corrected as shown below:

Column 3, line lS strike out "2 2" and substitute -2 3M- Column 3, line +8 strike out "2 2 1/2" and substitute Signed and sealed this 17th day of September 1974.

(SEAL) Attest:

C. MARSHALL DANN Commissioner of Patents McCOY M. GIBSON JR. Attesting Officer F oTRM PO-1OSO (1069) 

1. A gasket for sealing tHe space between a pipe and the surrounding surface of an opening through which said pipe passes, said gasket being composed of elastomeric material having, throughout its entire extent, a cross section similar to the shape of a capital ''''A'''', wherein the legs below the crossbar of the A diverge at a greater angle than the legs between the crossbar and the apex of the A, there being an inner cavity of triangular section below the apex of the A, the legs below the crossbar being configured to be embedded in settable material and to be rigidly secured by the setting thereof and the portion between the apex and the crossbar being configured to yieldingly span the space between said pipe and the wall of said opening, throughout the periphery thereof.
 2. A gasket as recited in claim 1, composed of rubber.
 3. A gasket according to claim 1, in which that portion of the legs of the A which extends into the settable material is serrated throughout at least a portion of its extent.
 4. A gasket for sealing the space between a pipe and a wall having an opening through which said pipe passes, said gasket being composed of elastomeric material having a cross section similar to the shape of a capital A, wherein the legs diverge from the apex of the A to the locus of the crossbar, where they are integrally united with a transverse web at that locus, to form an annular cavity of triangular section, said legs extending outwardly beyond the locus of the crossbar to be embedded in settable material which constitutes the wall having an opening, the portion of said gasket between the apex and the crossbar being configured to yieldingly span the space between said pipe and the wall of said opening, throughout the periphery thereof.
 5. The gasket of claim 4, formed as an extrusion.
 6. The gasket of claim 4, wherein that portion of the legs of the A which extends beyond the locus of the crossbar is ridged at intervals, so as to be firmly retained by such settable material after it has set. 